Stowable exercise chair for standing desks

ABSTRACT

The chair of the present disclosure balances safety, comfort, ergonomics, numerous desk geometries, a variety of floor surfaces, the physics of cantilevered elements, the height of floor obstacles, and a large range of body types/sizes. It can address the recommendations of ergonomic experts and adds the unique forward footrest/exercise bar for stretching, core workouts, and to increase the variety of ergonomic seating positions. The entire product can fold into a compact light weight package for easy transport and stowage.

CROSS REFERENCE TO RELATED APPLICATION

This application is related to and claims priority from the filed U.S.Provisional Application No. 62/769,345, filed Nov. 19, 2018, entitled“STOWABLE EXERCISE CHAIR FOR STANDING DESKS,” this applicationadditionally is a continuation-in-part of and claims priority fromearlier filed U.S. patent application Ser. No. 16/452,166, filed Jun.25, 2019, entitled “STOWABLE EXERCISE CHAIR FOR STANDING DESKS,” whichis a continuation of earlier filed U.S. patent application Ser. No.15/940,492, filed Mar. 29, 2018, entitled “STOWABLE EXERCISE CHAIR FORSTANDING DESKS,” which is related to and claims priority from the filedU.S. Provisional Application No. 62/479,039, filed Mar. 30, 2017,entitled “STOWABLE EXERCISE CHAIR FOR STANDING DESKS,” each of which areincorporated by reference in their entirety herein.

BACKGROUND OF THE INVENTION

The present disclosure is related generally to seating, desks, tablesand other structures for supporting a person or objects. It isparticularly useful for all users of standup desks, professionals,academics, programmers, architects, engineers, sailors, cyclists,basically anyone seeking a core workout, or an active seating experienceat a desk, with healthier more ergonomic seating options and the like.

It is increasingly well known in the ergonomic office furniture industrythat standup desks have the potential to provide a significant healthybenefit for the user. However, as with sitting, standing sedentarily forlong periods of time may increase the user's risk of developing physicalpain and other health issues. As a result, standing desks need to bepaired with an ergonomic standing chair that can support the user whenfatigued and allow the user to take breaks from standing.

In addition, scientists in the fields of biology, biomechanics, andergonomics have identified serious health risks—from back pain toincreased risk of heart disease and diabetes—that result from sitting inthe wrong ergonomic position and from sitting or standing in staticpositions for extended periods of time. In August of 2016, the AmericanHeart Association published a review of many of this current research inthe journal, Circulation. After reviewing this data, they concluded thatpeople should try to “move more and sit less” in order to mitigate thehealth risks associated with being sedentary for too long. Thus, thereis a significant need to design furniture that addresses the healthproblems associated with seating arrangements that result in poorergonomic postures and the lack of physical activity/movement. Therehave been many attempts in the prior art to meet these needs. However,each of the current known prior art standup chairs suffer from at leastone of the following problems:

-   -   a. They are in the way when not in use.    -   b. They don't allow easy transitions between sitting and        standing or between different positions while seating.    -   c. Little additional exercise benefit is provided by the chair.    -   d. There is no sit-up, back extension, or stretching exercise        capability provided by the chair.    -   e. Foot rests are often uncomfortably located directly below the        chair, which is ergonomically undesirable. Further, no footrests        are available that extend in front of the user.    -   f. They do not include multiple footrests that support the user        while sitting in a variety of postures.    -   g. They do not include footrests and pegs that can be used while        standing to facilitate more dynamic and ergonomic standing        positions.    -   h. They do not include an ergonomic seat pan that is designed to        optimally position and actively rotate the pelvis and support        the spine in more than one healthy sitting or leaning posture.    -   i. Lack of ease of storage and transport.

Numerous companies manufacture seating solutions that attempt to solvesome of the problems listed above. Some of these are designed to providemore active seating and encourage movement for the user at both regularand standing height desks, and some are designed to provide seatingoptions specifically for standing height desks. While they each haveunique features and benefits, none of them provide a solution that isable to address all of the foregoing problems. In addition, none aredesigned to provide the type of exercise that the chair of the presentdisclosure provides. They also do not optimally allow desk workers tomove easily between a wide variety of seated and standing positions sothat they can be more active throughout the work day and thus mitigatesome of the health risks associated with static sitting or standing forlong periods of time. While many of these products are able to supportyou in a few different postures (e.g., sitting and standing, or sittingand leaning), none of them are able to support you in the full range ofsitting, standing, perching, and leaning postures that the presentdisclosure provides.

Despite the foregoing efforts in the prior art, there is still a need toprovide easy transitions between sitting and standing or betweendifferent ergonomic positions while seating. There is a demand forproviding additional exercise benefit capabilities such as sit-up, backextension, and stretching exercises. There is a need for a foot restthat is more comfortably located in front of the chair for betterergonomics. There is also a need for adding multiple foot rests and amore ergonomic seat design that allow you to increase the range ofhealthy supported sitting positions available to the user and thusinspire movement between a variety of postures. This need includesadding foot rests that can be used while standing. This need alsoincludes having a seat designed to allow the rotation of the pelvis inthe anterior and posterior directions, with adjustable mechanicalresistance. This provides significant musculoskeletal benefit to thespine by allowing movement and by making it easier to position thepelvis and back in healthy neutral ergonomic postures that reduce thestrain on the spine and its supporting muscle groups. There is alsostill a need for a chair that is easy to store and carry. In conclusion,there is a need for all of the foregoing to be provided in one chair.

SUMMARY OF THE INVENTION

The present disclosure preserves the advantages of prior art chairswhile providing new advantages not found in currently available chairsand overcomes many disadvantages of such currently available chairs. Thepresent disclosure is generally directed to the novel and uniqueergonomic standup chair that addresses all of the aforementionedproblems associated with prior art chairs.

For example, in a preferred embodiment, the present disclosure providesa chair for standup use that can be folded for compact storage andtransport while enabling in-place exercising. Further, the chair can bedesigned such that it can make easy transitions between sitting andstanding or between different positions while seating.

A further object of the chair of the present disclosure is to includefeatures that provide additional exercise and stretching capabilitiessuch as sit-ups and back extensions. Accessories can be added tofacilitate a full body workout.

Another object of the present invention is to provide a chair with botha foot rest that is more comfortably located in front of the chair forbetter ergonomics, and to provide multiple footrests to increase thevariety of ergonomic sitting and standing positions that are availableto the user.

Yet another object is to include foot rests that can be utilized whilethe user is standing to allow more ergonomic and dynamic standingpositions.

A further object of the present invention to provide a chair that iseasy to store and carry.

There is yet a further object of the present invention to provide a seatthat allows adjustably dampened anterior and posterior pelvis rotation.

It is also an object to provide a seat pan that is optimally shaped tosupport the pelvis and spine in a wider range of healthy, ergonomicseated and leaning postures, and to support and inspire movementthroughout the day.

BRIEF DESCRIPTION OF THE FIGURES

The novel features which are characteristic of the present disclosureare set forth in the appended claims. However, the invention's preferredembodiments, together with further objects and attendant advantages,will be best understood by reference to the following detaileddescription taken in connection with the accompanying drawings in which:

FIG. 1 shows a perspective view of an embodiment of the chair of thepresent invention;

FIGS. 2A-2C shows side views of the chair of FIG. 1 in variety ofconfigurations;

FIG. 3 is a top view of a base of the chair of FIG. 1;

FIG. 4 is a partial perspective view of the chair of FIG. 1;

FIG. 5 is a side view of the base of the chair of FIG. 1;

FIG. 6 is a top view of the foot rest assembly of the chair of FIG. 1;

FIG. 7 is a side view of the foot rest assembly of FIG. 6;

FIG. 8 is a perspective view of the chair of FIG. 1 in a collapsedconfiguration;

FIG. 9 is a perspective view of the chair of FIG. 1

FIG. 10 is a side elevation view of the chair of FIG. 1;

FIG. 11 is a cross-sectional view of FIG. 11;

FIG. 12 is a cross sectional view of the locking pin of the seat post ofthe chair of FIG. 1;

FIG. 13 is a bottom perspective view of the seat of the chair of FIG. 1;

FIG. 14 is a bottom view of the seat adjustment mechanism of the chairof FIG. 1;

FIG. 15 is a front view of the chair of FIG. 1;

FIG. 16 is a right side view of the seat of the chair of FIG. 1;

FIG. 17 is a left side view of the seat of the chair of FIG. 1;

FIG. 18 is a rear side view of the seat of the chair of FIG. 1;

FIG. 19 is a top view of the chair of FIG. 1;

FIG. 20 is a top view of the chair of FIG. 1 in a collapsedconfiguration;

FIG. 21 is an isometric view of an alternative chair with a lower footplatform and upper loop foot restraint;

FIG. 22 is a perspective view of yet another alternative chair in afirst open configuration;

FIG. 23 is a side elevation view of the chair of FIG. 22;

FIG. 24 is a perspective view of the chair of FIG. 22 in a closedposition;

FIG. 25 is a side elevation view of the chair of FIG. 22 in the closedposition; and

FIGS. 26A-G are views of the char of FIG. 22 in various configurations.

DETAILED DESCRIPTION OF THE INVENTION

Certain exemplary embodiments will now be described to provide anoverall understanding of the principles of the structure, function,manufacture, and use of the device and methods disclosed herein. One ormore examples of these embodiments are illustrated in the accompanyingdrawings. Those skilled in the art will understand that the devices andmethods specifically described herein and illustrated in theaccompanying drawings are non-limiting exemplary embodiments and thatthe scope of the present invention is defined solely by the claims. Thefeatures illustrated or described in connection with one exemplaryembodiment may be combined with the features of other embodiments. Suchmodifications and variations are intended to be included within thescope of the present disclosure. Further, in the present disclosure,like-numbered components of the embodiments generally have similarfeatures, and thus within a particular embodiment each feature of eachlike-numbered component is not necessarily fully elaborated upon.Additionally, to the extent that linear or circular dimensions are usedin the description of the disclosed systems, devices, and methods, suchdimensions are not intended to limit the types of shapes that can beused in conjunction with such systems, devices, and methods. A personskilled in the art will recognize that an equivalent to such linear andcircular dimensions can easily be determined for any geometric shape.Further, to the extent that directional terms like top, bottom, up, ordown are used, they are not intended to limit the systems, devices, andmethods disclosed herein. A person skilled in the art will recognizethat these terms are merely relative to the system and device beingdiscussed and are not universal.

The chair 10 of the present disclosure, shown generally in FIG.1, isintended to balance safety, comfort, ergonomics, numerous deskgeometries, a variety of floor surfaces, the physics of cantileveredelements, the height of floor obstacles, and a large range of bodytypes/sizes. It addresses the recommendations of ergonomic experts andadds the unique forward footrests and upper exercise bar that encouragemovement and provide the capability to perform core workouts and othertypes of workouts. The entire chair 10 folds into a compact light weightpackage for easy transport and stowage, as shown in FIGS. 2A-2C.

The chair 10 of the present disclosure includes a number ofsubassemblies that interact to achieve the aforementioned benefits. Forexample, as shown in FIG. 1, the chair 10 can generally include a base100 which supports the chair 10. The base 100 can pivotally receive afoot tube assembly 200 and a seat tube assembly 300. The foot tubeassembly 200 and the seat tube assembly 300 can be pivotally connectedto the base 100 to permit the chair to fold for easy transport andstowage. The seat tube assembly 300 can receive the seat adjustmentassembly, or mechanism, 400 which can support the seat 500. The seatadjustment assembly 400 can allow for the seat to be adjusted in atleast three degrees of freedom.

The base assembly 100 can generally provide a cantilevered support auser sitting on the chair 10. The base assembly 100 can be manufacturedfrom a plurality of parts, as illustrated, or can be manufactured from asingle piece of material. In some embodiments, the base assembly 100 canbe manufactured from metals, composite materials, plastics, wood, or acombination thereof. The base assembly 100 can be manufactured throughstamping, molding, 3D printing or other manufacturing methods. The baseassembly 100 can be made of four sub-assemblies, namely a center support102, forward legs 110, a wheel assembly 120, and rear legs 150. Ingeneral, the center support 102 can include a proximal end 102 p and adistal end 102 d. The forward legs 110 can include a U-shaped cut out112 which can receive the proximal end 102 p of the center support. Theproximal end of 102 p of the center support 102 can be bolted to theforward legs 110, they can be welded together, or otherwise mechanicallyfixed relative to one another. The forward legs 110 can provide lateralsupport for the chair 10 as the two legs 110 a, 110 b extend from thecentral support 102. In the illustrated embodiment, as shown in FIG. 3,the legs 110 a, 110 b can be at a slight angle such that they slopetowards the distal end 102 d of the center support 102. In alternativeembodiments, the legs 110 a, 110 b can extend generally perpendicular tothe central support 102 or can be angled such that they slope away fromthe distal end 102 d of the center support 102. At the respective ends114 a, 114 b of the legs 110 a, 110 b, a foot 116 a, 116 b can beinstalled. The feet 116 a, 116 b, can extend from an underside of theends 114 a, 114 b. In some embodiments, the feet 116 a, 116 b can bethreaded into the underside of the ends 114 a, 114 b such that they canbe adjusted to ensure that the legs 110 a, 110 b are stable during use.The forward legs 110 can alternatively be positioned and shaped toprovide critical support needed for users who would like to work insupported ergonomic leaning or perching postures. The forward legs 110can prevent a user's feet from uncomfortably sliding forward on thefloor when trying to use the chair in this way. Without the forward legs110 the strain required to resist the tremendous shear forces of theuser's feet on the floor would make sitting in this positionundesirable.

The forward legs 110 can additionally include a wheel assembly 120disposed at a central forward location 118 of the forward legs 110. Thewheel assembly 120 can generally include a U-shaped bracket 122 disposedin a groove, not shown, on an underside of the legs 100. The bracket 122can include two laterally offset arms 122 a, 122 b which include throughholes therein. A pin 124 can extend through the two through holes and befixed therein. As shown, at least two wheels 126 a, 126 b can berotatably disposed on the pin 124. The wheels 126 a, 126 b can permitthe chair 10 to be rolled across a surface when the chair 10 is pivotedupward about the pin 124.

Returning to the center support 102, a rear stability plate, or legs,150 can be disposed at the distal end 102 d of the center support 102. Alower face of the distal end 102 d of the center support 102 can rest ontop of the rear stability plate 150. In the illustrated embodiment, tworear legs 150 a, 150 b, can extend on either side having a generallyright triangular shape. The rear stability plate can, as illustrated, besecured to the center support 102 with a plurality of screws 152.Alternatively, the rear plate can be welded or otherwise secured to thecenter support 102. The rear support plate 150 can additionally providelateral support for the chair 10.

At a forward, or proximal, position on the center support 102, a pivotpin assembly 140 can be disposed on a top surface. The location of thepivot pin assembly 140 can be chosen to ensure that a proper balance isachieved when a user is seated on the chair 10. The location of thepivot pin assembly 140 can be chosen to ensure that the center ofgravity of a user can stay within a safe operating envelope of the base100 to ensure that the chair 10 remains in stable operation. The pivotpin assembly 140 can pivotally secure the foot tube 200 and seat tube300 to the base 100. A pivot pin 142 can be disposed in through holes144 a, 144 b respectively disposed through ears 146 a, 146 b. The ears146 a, 146 b can be welded, or otherwise secured, onto the centersupport 102. In the illustrated embodiment, the ears can have agenerally triangular shape with a rounded top apex. The pivot pin 142can be secured within the ears using c-clips 148 a, 148 b secured aboutthe ends of the pivot pins on an outer surface of the ears 146 a, 146 bas shown in at least FIGS. 4 and 5. The foot tube 200 and seat tube 300can be inserted into the open space between the ears 146 a, 146 b beforethe pin 142 is inserted into the ears.

In addition to the pivot pin assembly 140 supporting the foot tube 200and the seat tube 300, a positioning arc 130 can be additionallydisposed on the top surface 102 t of the center support 102. Thepositioning arc 130 can be generally centered over the ears 146 a, 146b, as shown in FIGS. 2A-2C. In the illustrated embodiment, the arc 130can be an upside down U-shape or circular arc shape. The arc 130 can bewelded or bolted to the center support 102. The rotational positions ofthe foot tube 200 and the seat tube 300 can be fixed relative to the arc130 by the insertion of pins into various through holes, notches, andarcs, as shown in one configuration in FIG. 4 and discussed furtherbelow. As illustrated in FIG. 5, a first set of through holes 132 a-132e can be disposed on a proximal portion 130 p of the arc 130. Thesefirst set of through holes 132 a-132 e can be used to fix the rotationallocation of the foot tube 200 or the seat tube 300 when the seat is inan open, unfolded, configuration, as will be discussed further below. Athrough hole in the shape of an arc 133 can be disposed proximate thetop 130 t, or keystone, of the arc extending distally towards the distalend 130 d of the arc. The length of the arc 130 can permit the seat tubeto translate within the arc 130 from a standing desk orientation, asshown in FIG. 2A, to an orientation suitable for a standard desk, asshown in FIG. 2B. At the distal end of the arc through hole 133, a notch134 can be disposed on the top surface of the arc 130. In the distal end130 d of the arc, two additional through holes 135 a, 135 b can belocated to secure the foot tube 200 and seat tube 300 when the chair isin a collapsed configuration. Alternatively, any number of notches,through holes, or through arcs can be made in the arc 130 to achieve aparticular ergonomic need for the end user.

As noted above and shown for example in FIG. 4, the foot tube assembly200 can be pivotally attached to the base assembly 100 to allow for thefoot rests to be disposed in a number of different positions. The foottube 200 assembly can generally include a forked arm 210 received withina hook shaped tube 230. The hook shaped tube 230 can have two sets offoot rests 244, 254 disposed thereon. Alternatively, the foot tubeassembly 200 can include any number of foot rests. The foot tubeassembly 200 can be manufactured from any different material havingsuitable strength to support the weight of an adult, for example metals,plastics, wood, and composite material, or a combination thereof. Theforked arm 210 can generally include two forked arms 212 a, 212 bextending from a support tube 216 creating a generally U-shape. The twoforked arms can be separated by a distance that is approximately largerthan the width of the arc 130 such that they can be disposed on eitherside of the arc 130. At a proximal end of the forks 212 a, 212 b, apivot pin through hole 213 a, 213 b can be coaxially arranged. The pivotpin through holes 213 a, 213 b can have a diameter sized to receive thepivot pin 142 to be pivotally supported by the base 100. At a locationdistal to the pivot pin through holes 213 a, 213 b, the forks 212 a, 212b can include locking pin through holes 214 a, 214 b. In the illustratedembodiment, as shown in FIGS. 4 and 6, the locking pin through holes 214a, 214 b can be threaded to receive a threaded locking pin 220. Thethreaded locking holes 214 a, 214 b can be located on the forks 212 a,212 b such that they are aligned with the various through holes 132a-132 e, 135 a, 135 b on the arc 130 when the foot tube 200 is installedonto the pivot pin 142. When the locking holes 214 a, 214 b arecoaxially aligned with one of the arc through holes 132 a-132 e, 135 a,135 b, the threaded locking pin 220 can be disposed through the lockingholes 214 a, 214 b and the respective arc through hole 132 a-132 e, 135a, 135 b to fix the rotational location of the foot tube 200. Thethreaded locking pin 220 can include a pin portion 222, a threadedportion 224, and a knurled head 226. In use, the pin portion 222 can beinserted first through the locking through hole 214 a until the threadedportion 224 engage the threaded locking hole 214 a. The locking pin 220can be threaded through both an arc through hole 132 a-132 e, 135 a, 135b and then into the other foot tube through hole 214 b and advanced intoa locked configuration as the threads 224 engage the threads, not shown,in the threaded through hole 214 a. The knurled head 226 can betextured, or knurled, to provide the user with added grip. In analternative embodiment, the locking pin 220 can be spring loaded to biasthe pin into a locking engagement with the arc through hole 132 a-132 e,135 a, 135 b and the other of tube locking through hole 214 b.

At the distal end of the fork portion 210 a support tube 216 can extenddistally having a diameter D1. The support tube 216 can have a generallycircular cross-sectional shape. In alternative embodiments, the supporttube 216 can have any cross-sectional shape. The support tube 216 can betelescopically received within the hook portion 230, as shown in FIG. 7.The support tube 216 and the hook portion 230 can be welded, riveted, orotherwise mechanically fixed together. In an alternative embodiment, thehook portion 230 can be received within the support tube 216.

The hook portion, as shown in FIG. 7, can include a first, proximal,straight section 232 which leads to a curved, or hooked, section 234,and can end with a second, distal straight section 236. The hook portion230 can be a hollow shaped tube having a generally circularcross-section. In alternative embodiments, the hook portion 230 can besolid and have any cross-sectional shape that may receive the supporttube 216 of the fork portion 210. At a medial location 232 m of thefirst section 232 a first foot rest 240 can be disposed. In alternativeembodiments, the first foot rest 240 can be disposed at other locationson the foot tube 200. The term “foot rest” can include any of a tube, atube with foam, a cross bar, platforms, rigid loops, straps, or otherstructure to support a portion of a user. The first foot rest 240 caninclude a tube 242 having two sides 242 a, 242 b on either side of thefirst section 232. The two sides 242 a, 242 b can each have foam tubes244 a, 244 b disposed thereon. The foam tubes 244 a, 244 b canadvantageously provide for an added level of comfort for when the useris in contact with the first foot rest 240. Alternatively, the foamtubes 244 a, 244 b can be tubes made from other materials. In a furtheralternative embodiment, the foot rests 240, 250 can be any of across-bar, platform, loop, or other forms of foot restraints. In analternative embodiment, as shown in FIG. 21, in place of the first footrest 240, a platform 261 can be disposed on either side of the foot tube200. The platform 261 can be an ergonomically shaped platform made fromwood, plastic, metal, or a combination thereof. In some embodiments, theplatform 261 can have a layer of foam or other materials layered on topfor added comfort.

As shown in FIG. 7, at a distal location 236 d of the second straightsection 236 a second foot rest 250 can be disposed. In alternativeembodiments, the second foot rest 250 can be disposed at other locationson the foot tube 200. The second foot rest 250 can include a tube 252having two sides 252 a, 252 b on either side of the second section 236.The two sides 252 a, 252 b can each have foam tubes 254 a, 254 bdisposed thereon. The foam tubes 254 a, 254 b can advantageously providefor an added level of comfort for when the user is in contact with thefirst foot rest 240. Alternatively, the foam tubes 254 a, 254 b can betubes made from other materials including wood or plastics. In analternative embodiment, as shown in FIG. 21, the second foot rest 250can be in the form of an exercise bar 260. The exercise bar 260 may bean aluminum loop with foam padding which provides the user with moresecure support when stretching or doing sit-ups since it allows a userto lock your feet into it. Not shown, either of the first or second footrests 240, 250 can be any of a foot rest, platform, exercise bar, loop,or other forms of foot restrains in any combination. The foot rest 240can be positioned to support the user in ergonomic seated postures andstretching exercises. The foot rest 250 can be positioned toadditionally support the user in ergonomic seated postures, but also iscorrectly placed to support the user's legs when doing a sit-up.

In addition to the foot tube 200 providing support for a user, a seat500 is pivotally connected to the base 100. The seat 500 rests upon anadjustable seat tube, or post, 300 that is pivotally receives the pivotpin 142. The seat tube 300 can be manufactured from any differentmaterial having suitable strength to support the weight of an adult, forexample metals, plastics, wood, and composite material, or a combinationthereof. In general, the seat tube can be a height adjustable assemblymade from a tube 310 and an inner tube 360. The tube 310 can have agenerally rectangular, or square, or circular cross-section having alumen 311 extending from a proximal most end 310 p to a distal most end310 d. At the distal end of the tube 310 can have a fork structure 312extending distally therefrom. Forks 312 a, 312 b can be laterallydisposed from one another a first distance D1. The first distance D1 issized to receive both fork 212 of the foot tube therein such that thefork tube can rotate, or pivot, about the pin 142 concurrently with theseat tube 300. At a distal end 312 d of the forks, there are respectivepivot through holes 313 a, 313 b for receiving the pivot pin 142. Duringconstruction of the chair 10, the fork 312 can be inserted between theears 146 a, 146 b, and the fork 212 can be disposed between the forks312 a, 312 b such that the respective pivot through holes of the forks212, 312, and the ears 146 a, 146 b are coaxially aligned to receive thepivot pin 142. An upper U-shaped opening can extend proximally fromwhere the forks extend thereby defining an opening with a seconddistance D2. The second distance D2 can be sized to slidably receive thearc 130. At the same height of the U-shaped opening, a support andlocking assembly can be disposed within the interior lumen 311 of thetube 310.

The support, or seat tube reinforcement block 330, can be telescopicallyreceived in the lumen 311 to provide additional structural support forthe seat tube 300. The support 330 can be manufactured from a urethane,metal, or composite materials. The support 330 can be generallycylindrical having a corresponding opening to the opening of the tube310. When installed within the lumen 311 of the tube 310, the opening332 of the support 330 can be aligned with the opening of the tube 310to receive the arc 130. The bottom surface of the opening can ride, orcontact, the upper surface of the arc 130. In the illustratedembodiment, the support 330 is retained within the lumen 311 with ascrew 334 inserted into the rear face 310 r of the tube 310.Alternatively, the support 330 can be glued, welded, or otherwiseretained in the lumen 311 to prevent the support 330 from migrating, ormoving, within the lumen 311.

A stop pin assembly 340 can be disposed at the distal end 310 d of thetube 310. The stop pin assembly 340 can extend perpendicularly to tube310, substantially at the location of the openings 314, 332. On eitherside of the tube 310, two stop pin housings 342 a, 342 b can house thestop pin 344, biasing spring 345 and retaining screws 346 a, 346 b. Theretaining screws 346 a, 346 b can have one end threaded on to therespective housings 342 a, 342 b and the opposite end threaded into thetube 310 and support 330 to retain the housings 342 on the tube 310. Apin 344 can extend in the housing 342 a. The pin 344 can have a head 344h disposed outside the housing 324 a. The stop pin assembly 340 canadditionally include a compression spring 345 to bias the tip of pin 344t through the openings of the arc 130. The pin can have a stop 344 sthat can abut an end of the retaining screw 346 a to prevent the pinfrom over extending into the housing 342 a. The head 344 h can begrasped by a user to withdraw the pin 344 from engagement with thevarious through holes and arc holes 132 a-132 e, 133, 135 a, 135 b ofthe arc 130. In use, the head 344 h can be pulled away from the arc 130to remove the pin 344 from engagement with the arc 130. Once thepreferred location of the seat tube 300 is attained, the user canrelease the head 344 h and the spring 345 can bias the pin 344 back intoengagement. Alternatively, other stop mechanisms can be used to retainthe rotational configuration of the seat tube 300 relative to the arc130. In use, the housing 342 a, 342 b can serve as additional footreststhat may be used by the user while sitting or standing. Further, thehousings 342 a, 342 b can be used as a step to aid a user when they aregetting onto the seat 500.

An additional retaining mechanism 350 in the form of a stop pin 352 canbe disposed on the rear face 310 r of the tube 310 in a rear housing354. In an exemplary embodiment, the rear housing 354 can be welded orscrewed onto the rear face 310 r of the tube 310. The rear housing 354can have a through hole 356 which can slidably receive a stop pin 352.In some embodiments the stop pin 352 can be a cylindrical pin, a bar, orother shapes. The stop pin 352 can be sized to be received within thenotch 134 of the arc 130 to prevent the tube 310 from over rotatingtowards the distal end 130 d of the arc 130. In some embodiments, theretaining mechanism 350 may not be included.

As noted above, the proximal end of the tube 310 p can be open totelescopically receive an inner tube 360 which supports a seatadjustment, or rod, assembly 400 and a seat 500. The inner tube 360 canhave a generally rectangular, trapezoidal, square, or circularcross-section that matches the cross-section of the inner lumen 311 ofthe tube 310. In some embodiments, the external cross-sectional shape ofthe tube 310 can be different than the internal cross-sectional shape ofthe lumen 311. The cross-sectional shapes of the inner tube 360 and thelumen 311 may be chosen to prevent the inner tube 360 from rotatingwithin and relative to the tube 310. Along the length of the inner tube360, a series of through holes 362 can be made through at least one faceof the inner tube 360. In an alternative embodiment, the through holes362 can extend from one face of the inner tube 360 to another face ofthe inner tube. The through holes 362 can be made at any desirableinterval. The interval, or distance between the holes can provide foradded granularity in adjustment of the relative height of the inner tube360 to the tube 310. As the seat 500 is fixed to the proximal end 360 pof the inner tube 360, the height of the seat 500 can be adjusted as theinner tube 360 is moved within the tube 310.

The relative height of the inner tube 360 can be locked with respect tothe tube 310 with a height locking pin 370. As illustrated, the heightlocking pin can be disposed at the proximal end of the tube 310. Theheight locking pin 370 can be disposed in a housing 372 which houses thepin 370 and a biasing spring, not shown. The biasing spring can bias thepin 370 in a direction towards the inner tube 360. In use, the pin canbe withdrawn, away from the inner tube 360 to allow the inner tube toslide within the tube 310 to adjust the height of the seat 500. Once thedesired height is achieved, the pin 370 can be release and biased intoengagement with one of the through holes 362 in the inner tube 360.

Returning to the inner tube 311, a seat tube adapter 380 can be disposedon a distal most end 311 d of the inner tube 311. The seat tube adapter380 can provide a support to receive the seat adjustment mechanism 400.The seat tube adapter 380 can telescopically receive the distal end 311d of the inner tube 311 at a forward end thereof, as shown in FIG. 11.In some embodiments, the seat tube adapter 380 can be welded orotherwise mechanically secured to the inner tube 311. Further, the seattube adapter 380 can have a cylindrical through hole 382 at a rear endthereof. The cylindrical through hole 382 can receive a yaw pin 402 ofthe seat adjustment mechanism 400. When the yaw pin 402 is receivedwithin the through hole 382, the seat adjustment mechanism can rotatewithin the through hole to provide a first degree of freedom, oradjustment for the seat 500.

The seat adjustment mechanism 400 can provide, for example, threedegrees of freedom, or adjustment, for the seat 500 relative to the seattube assembly 300. As noted above, the yaw pin 402 can be seated in theseat tube adapter 380 to allow the seat 500 to pivot about the seat tubeadapter 380, as illustrated in FIG. 11. Further, a user may desire toadjust the anterior/posterior location of the seat, relative to the seattube adapter 380. To achieve this sliding ability of the seat, a rodbase 410 can be fixed onto the proximal end of the yaw pin 402. The yawpin 402 can be disposed in a through hole of the rod base 410 or can bewelded to an underside 410 u of the rod base 410. The rod base 410 canslidably support a slider top plate 420 which can permit the seat 500 toslide anteriorly A and posteriorly P as shown in FIG. 16. The slider topplate 420 can include a substantially flat rectangular plate 422 havingtwo downward extending sidewalls 424 a, 424 b, parallel to one anotheron a first two sides and two upward extending parallel sidewalls 423 a,423 b on the other two sides.

The rod base can include two through holes 411 a, 411 b which areoriented perpendicular to the yaw pin 402. The two through holes 411 a,411 b can be spaced apart a set distance and have a diameter D3. Thediameter D3 of the through holes 411 a, 411 b can be sized to slidablyreceive rod shafts 413 a, 413 b. The two through holes 411 a, 411 b canhave oil embedded flange sleeve bearings, not shown, to reduce anyfrictional forces between the through holes 411 a, 411 b and the rodshafts 413 a, 413 b. The two rod shafts 413 a, 413 b can be secured tothe downward side walls 424 a, 424 b of the top slider plate 420 so thatthe as the rods 413 a, 413 b move relative to the rod base 410, the topslide plate 420 moves as well. The assembly can additionally include agas spring 415 which can provide resistance to the rods 413 a, 413 bfrom sliding relative to the rod base 410. As shown in FIG. 14, the gasspring 415, can have a first end, or the cylinder, 415 a fixed in thedownward side wall 424 b and the other end, or piston rod 415 b, fixedto a flange 418 in the base 410 such that it is parallel to the two rods413 a, 413 b. In some embodiments, the gas spring 415 can be adjustableto provide the user the ability to adjust the amount of resistance tosliding of the slider top plate 420 relative to the base 410.

In addition to the sliding movement of the seat 500 and the pivotingabout the yaw pin 402, the seat 500 can additionally pivot about an axisthat is perpendicular to both the yaw pin and the sliding rods. Thisfurther pivoting can provide a user with the ability to adjust thepelvic alignment of the seat 500. Additionally, pivoting about the yawpin 402 can provide a user with the ability to perform a rockingmovement to support muscles of the spine and provide relieve from thestrain of maintaining static seated positions. The slider top plate 420can include through holes 424 a, 424 b in the respective upwardsidewalls 423 a, 423 b. A seat hinge pin 430 can be inserted through thethrough holes 424 a, 424 b. A seat mount 450 can be pivotally disposedon the seat hinge pin 430 to create a “hinge” joint between the seat 500and the slider top plate 420. The seat mount 450 can include twodownward depending sidewalls 452 a, 452 b each of which can be parallelto the upward sidewalls 423 a, 423 b. The two downward dependingsidewalls 452 a, 452 b can each include an ear 453 a, 453 b which havecoaxially aligned through holes. The two downward depending sidewalls452 a, 452 b can be offset from one another such that when they arejoined to the hinge pin 430 they are disposed outward of the two upwardsidewalls 423 a, 423 b.

In order to prevent the seat mount 450 from freely pivoting about thehinge pin 430, a set of torsion springs 460 a, 460 b can be disposed onthe pin 430 on either side of a belt 462 a. The two torsion springs 460a, 460 b and the belt drum 462 b can be disposed on the pin 430 betweenthe two upper sidewalls 423 a, 423 b. Alternatively, other arrangementsof the torsion springs 460 a, 460 b are within the scope of thisdisclosure. One arm of each of the torsion springs 460 a, 460 b can bedisposed within the belt drum 462 b and the other arm of each of thetorsion springs can apply a counter force to the slider top plate 420 toresist pivoting movement of the seat mount 450. The torsional resistanceprovided by the torsion springs 460 a, 460 b can be adjusted by rotatingthe tension knob 480, which is connected to a screw type mechanism thatcan apply a force to the belt 462 a. The belt 462 a can transmit theforce to the perimeter of belt drum 462 b to vary the torque on springs460 a and 460 b. The slider top plate 420 can further include a stopfinger plate 470 extending outward from the upward extending sidewall423 a to serve as a physical barrier to the seat mount 450 from overrotating or pivoting. The stop finger plate 470 can be engaged ordisengaged through actuation of the stop knob 471 which applies orreleases friction on the stop finger plate.

The seat mount plate 450 can securely retain the cushioned seat 500 suchthat the seat 500 is able to be angularly adjusted relative to the base100, height adjusted relative to the base 100, pivot about the yaw pin402, slide on the rods 413 a, 413 b, and pivot about the hinge pin 430.The seat 500 can be secured to the seat mount plate using a plurality ofscrews, nails, staples, glue, or can be welded. The seat 500 cangenerally include a fabric covered cushion 502 and two laterallyextending handles 504 a, 504 b. The cushion 502 can be manufactured froma single piece of material, such as polyurethane, foam, memory foam, orother materials mounted on a piece of wood, metal, or plastic, notshown, and covered with fabric. In an alternative embodiment, thecushion 502 can be made from a plurality of pieces of material. Theshape of the seat can be shaped to position a user's pelvis into moreergonomic positions that support healthy strain-reducing spine postures.The pivoting of the seat, as discussed above, further aids in achievingthis desired outcome.

In order to provide the user with additional support, the seat 500 caninclude two handles 504 a, 504 b. The two handles 504 a, 504 b cangenerally be the same shapes and size. For ease of discussion, onehandle 504 a will be discussed in detail. The handle 504 a can have agenerally upside-down U-shape with a further perpendicular bend at theends of each arm of the U to form anchor arms 514 a, 514 b. The anchorarms 514 a, 514 b can be perpendicular to the top portion of the U-shapeand can be screwed into the bottom of the seat 500 to secure themthereto. In the illustrated embodiment, the U-shape 510 is formed of acircular rod portion and the anchor arms 514 a, 514 b are shown as flatplates. However, the handles 504 a, 504 b can be formed from anysuitable cross-sectional shape.

In use, a user can fully adjust the seat 10 in a wide range oforientations, as shown throughout the figures. For example, in a fullyopened, or unfolded configuration, the foot rest locking pin 226 can bereleased to allow the foot rest post 200 to be rotated about the pivotpin 146. The foot rest post 200 can be advanced to one of the throughholes 132 a-132 e and the locking pin 226 can then be released at thecorrect ergonomic position for the user. Once the locking pin 226 isreleased it can be inserted into the respective through hole 132 a-132 eto lock the relative angle of the foot rest post 200. Similarly, lockingpin 340 of the seat tube, or post, 300 can be released from the arc 130and the seat post 300 can be rotated up to the arc through hole 133, forexample as shown in FIG. 2A. The retaining mechanism 350 can be actuatedinto the notch 134 to prevent the seat post 300 from rotating forwardswhen the user wants to position the chair on the floor. In analternative configuration, the seat post 300 can be rotated further fromthe orientation of FIG. 2A, such that the locking pin 340 is disposed ina forward location 133 p of the arc through hole 133, as shown in FIG.2B. The configuration of FIG. 2B can be useful, e.g., when a user isstanding at a desk.

The seat tube 300 can be further adjusted by releasing the heightlocking pin 370 to move the inner tube 360 within the seat tube 310.Sliding the inner tube 360 within the seat tube 310 can adjust theheight of the seat 500. In some instances, it may be beneficial to lowerthe seat 500 if the chair 10 is being used at a traditional sittingdesk. Alternatively, the seat 500 can be raised if the chair is beingused in connection with a standing desk.

The seat 500 itself can be adjusted relative to the seat post 300 in atleast three degrees of freedom, as discussed above. The seat 500 canrotate about the yaw pin 402 to advantageously access the entirety of adesktop, to enter and exit the seat, to provide optimal seating comfortin a number of different positions, and for compact storage in thestowage configuration. From a health/ergonomic perspective, the pivotingabout the yaw pin 402 can allow a user to rotate/twist their body. Thismovement can provide muscle relief and help increase circulation throughthe user's spine and body. The seat 500 can be pivoted about the hingepin 430 to ensure that there is proper pelvic alignment and allowrocking movement that can give the muscles that support the spine breaksfrom the strain of maintaining static seated positions. Additionally,the seat 500 can be moved anteriorly A or posteriorly P, away andtowards the foot rest 200, to ensure that the user's legs are properlysupported.

When a user no longer needs the chair 10 in an unfolded configuration,the above steps can be reversed to collapse the chair into the collapsedconfiguration, as shown in FIG. 2C. Optionally, the inner tube 360 canbe lowered fully into the seat tube 310. The retaining mechanism 350 andthe locking pin 370 can be released to allow the seat post 300 to rotatetowards through hole 135 b on the arc 130. Once the seat post has beenfully collapsed, the locking pin 370 can be inserted into the throughhole 135. The foot rest post 200 can similarly be unlocked and rotatedtowards through hole 135 a to be locked for the collapsed configuration.The user can then lift the base 100 from, for example, the rearstability plate 150 to pivot the assembly upwards on the wheels 126 a,126 b to roll the chair 10 into a storage location.

The chair of the present invention addresses the shortcomings of theprior art. For example, the chair can flip under the desk when not inuse. It provides micro- and macro-movement core exercises, as well asother fitness exercises for other parts of the body, multiple seating,standing and leaning positions to maximize comfort and health. Itprovides fully adjustable pelvic rotation with graduated damping. Itprovides adjustable sit-up, back extension, and stretching exercisecapability. It also incorporates multiple foot rests at ergonomicallyrecommended (and comfortable) locations in front of chair in addition tofoot rests that can be used while sitting. Further, pegs at the centerof the base can be used to support the user in a variety of standingpositions. Further, it utilizes an ergonomically designed seat withcustomizable features to suit any body shape, and a custom combinationof polyurethane foams that provide optimal support and comfort. Inaddition, it quickly and easily folds into a compact, easy to transportpackage. It is may be constructed of wood or stamped or cast aluminumcomponents for low-cost and light weight. Thus, the chair is designedfor manufacturability, using stampings, castings, machined, andinjection molded parts to reduce cost.

In an alternative embodiment, as shown in FIGS. 22-25, a chair 1000 caninclude an alternative, pivot connection assembly 1600 which can connecta base 1100 with a foot rest assembly 1200 and a seat tube assembly1300. As many of the assemblies of the alternative chair 1000 are thesame as chair 10, they will not be discussed for the sake of brevity.

In addition to the alternative pivot connection assembly 1600, whichwill be discussed below, the base 1100 can include an alternative wheelassembly 1120. In place of two centrally located wheels 126 a, 126 bwhich share a single pin 124, as is the case in chair 100, a set ofcaster wheels 1126 a, 1126 b, can be disposed anywhere along the legs1110 a, 1110 b, of the base 1100. In the illustrated embodiment, thecaster wheels 1126 a, 1126 b are disposed at the distal ends 1114 a,1114 b of the respective legs 1110 a, 1110 b. In an alternativeembodiment, any type of wheel can be used at any location of the base toprovide for ease of movement of the chair 1100.

Returning to the alternative pivot assembly 1600, the alternative chair1000 replaces the pivot pin assembly 140 and the arc 130 of the abovedisclosed chair 10 with a unique seat pivot lock 1620 and a lockingshaft 1350 to constrain movement of the seat tube assembly. In general,the pivot assembly 1600 can allow for a variety of sub-assemblies topivot about a central portion 1102 of the base 1100 in a variety ofconfigurations including a standing, sitting, or collapsedconfigurations. The pivot assembly 1600 can, in general, include theseat tube assembly 1300 which can be pivotable about a first pivot point1602, the locking shaft assembly 1350 pivotable about a second pivotpoint 1604, and a footrest assembly 1200 pivotable about a third pivotpoint 1606. The first, second, and third pivot points 1602, 1604, 1606can be disposed along the length of the central portion 1102 of the base1100. In the illustrated embodiment, shown in FIGS. 22-25, the first,second, and third pivot points 1602, 1604, 1606 can all be formed on asingle plate 1608 which is mounted to the central portion 1102 of thebase 1100. Alternatively, the first, second, and third pivot points1602, 1604, 1606 can be mounted directly to the central portion 1102.Moreover, the first, second, and third pivot points 1602, 1604, 1606 canbe all aligned in a straight line down the central portion 1102 of thebase 1100. As with the seat tube 300 discussed above, the seat tube 1300can be secured to the central portion 1102 of the base by a pivot pin1142 threaded through a set of ears, or plates, 1146 a, 1146 b, whichcan be secured to the central portion 1102. The pivot pin 1142 canextend through respective through holes in the ears 1146 a, 1146 b andthe lower end of the seat tube 1300.

At a lower end of the seat tube 1300, the locking shaft 1350 can bepivotally secured, or fixed, to the rear of the seat tube at a firstlocation 1302. In the illustrated embodiment, the first location isdisposed above a locking peg 1304. A pin, not shown, can pivotallysecure the locking shaft 1350 to the seat tube 1300. As shown, the pincan have two foot rests 1340 extending outward from the first location1302. The locking shaft 1350 can be a telescoping piston, e.g.hydraulic, which can have a barrel end 1352 pivotally attached to theseat tube 1300 at one end and a groove 1356 at the opposite end, and thepiston can additionally include a rod portion 1354 that can have a peg1358 on a distal end thereof. The groove portion 1356 and the peg 1358can both be sized to be received in a lock 1630 on the central portion1102 of the base 1100 at the first pivot point 1604. When both thegroove portion 1356 of the barrel and the peg 1358 of the rod arereceived in the lock, the rod and the barrel are prevented from linearlymoving relative to one another and the seat tube 1300 is thus fixedrelative to the base 1100. In another configuration, only the peg 1358of the rod may be fixed by the lock 1630 such that the barrel canlinearly move relative to the rod, to permit the seat tube 1300 torotate about the first pivot point 1602, within a pre-defined range ofmovement from a sitting position to a standing position. The lock 1630can define the second pivot point 1604.

As best seen in FIG. 26C, the lock 1630 can have a pivot lock plate 1632that can pivot about the second pivot point 1604 to secure either justthe peg 1358 of the locking shaft, or both the peg 1358 and the grooveportion 1356 with the peg. The pivot lock plate 1632 can have a U-shapedcut out 1634 that allow fingers 1632 a, 1632 b of the pivot lock plateto rotate, in a direction R1, into engagement with the groove 1356and/or the peg 1356 of the locking shaft 1350 when they are disposedbelow the pivot lock plate 1632.

In use, to collapse the chair 1000 to the collapsed configuration, thepivot lock plate 1632 can be rotated rearward, in a direction oppositefrom R1, away from the lower arms 1114 a, 1114 b of the base 1100 sothat the peg 1358 of the locking shaft 1350 can be removed from the lock1630 and the locking shaft 1350 can be rotated upward towards the seattube to disengage from the lock. The locking shaft can then be rotatedupward, in a direction R2 towards the seat post 1300, such that the seatpost 1300 can then be rotated downward in a direction R3, away from thelower arms 1114 a, 1114 b of the base 1100. The locking peg 1304 on therear face of the locking shaft 1300 can be received in the lock 1630 andthe locking plate can be rotated in the direction R1 such that thelocking peg 1304 is fixed in the lock 1630 of the base therebypreventing relative rotation of the seat post 1300 relative to the base.

In addition to the lock 1630 for the seat post 1300, the main foot rest1200 can include lock 1230 which can lock the foot rest 1200 relative tothe base 1100. In general, the foot rest 1200 can be substantially thesame as the foot rest 260 of FIG. 21. The foot rest 1200 can include alower plate 1202 which can be pivotally connected to the base via thethird pivot point 1606. The third pivot point 1606 can be disposed inline with the first and second pivot points 1602, 1604, but forwards ofboth proximate the arms 1114 a, 1114 b of the base 1100. At an oppositeend of the lower plate 1202, a locking rod 1234 can be inserted into alock cut out 1230 and then threaded into the base 1100. The locking rod1234 can have a threaded shaft and a contoured head. The contoured headcan be sized and configured to be disposed above the lock cut out 1230.The lock cut out 1230 can be a generally U-shaped cut out of the frontof the lower plate 1202. The U-shaped cut 1230 out can include twofingers 1230 a, 1230 b which are angled downward relative to the lowerplate 1202. The locking rod 1234, can prevent the main foot rest frompivoting relative to the base when locked and permit the main foot restto pivot when unthreaded a pre-determined amount.

In use, as noted above, the chair 1000 can include at least threedistinct configurations, 1) a locked seated configuration, see FIGS. 22& 23; 2) a folded configuration, see FIGS. 24 & 25; and 3) a standingconfiguration, see FIG. 28D. The transition from one to another of theconfigurations is generally shown in FIGS. 28A-G, however the discussedsteps can be performed in any order. The steps shown in FIGS. 28A-G arebut one exemplary, non-limiting embodiment of use. In a firstconfiguration, the chair 1000 is shown in the locked seatedconfiguration such that both the seat post 1300 and the foot rest 1200are both locked relative to the base 1100. As shown in FIGS. 28A and28B, the peg 1358 and the groove 1356 are locked in the lock 1630, andthe locking rod 1234 is threaded down onto the lower plate 1202 of thefoot rest 1200.

In an alternative, standing, configuration, as shown in FIGS. 28C & 28D,the pivot lock plate 1632 can rotate in a direction R2 to permit thegroove 1356, and thus the barrel 1352, to translate upward, relative tothe base, to permit the seat post 1300 to rotate about the first pivotpoint 1602. In the standing configuration, the foot rest 1200 can remainlocked in position relative to the base 1100.

In a further configuration, the peg 1356 can be removed from the lock1630 when the lock plate 1632 is in the unlocked position, and thelocking shaft 1350 can be rotated upward in the direction R3, while theseat post 1300 can rotate in the direction R4 to collapse the chair, asseen in FIG. 28E. In addition, the locking thread 1234 can be disengagedfrom the lower plate 1202 so that the foot rest 1200 can rotate aboutthe third pivot point 1606, towards the seat post 1300. Once the seatpost 1300 is in the collapsed configuration, the locking peg 1304 of theseat post 1300 can be received in the lock 1630, and the lock plate 1632can be rotated in the direction R1 to lock the seat post 1300 relativeto the base 1300.

It would be appreciated by those skilled in the art that various changesand modifications can be made to the illustrated embodiments withoutdeparting from the spirit of the present invention. All suchmodifications and changes are intended to be covered by the appendedclaims.

What is claimed is:
 1. An ergonomic chair, comprising: a base including a central support and at least one lateral support; a seat post having a first end and a second end; the seat post being pivotally connected to the base by the first end of the seat post about a first pivot point; a seat connected to the second end of the seat post; a foot rest post having a first end and a second end, the foot rest post being pivotally connected to the base support by the first end of the foot rest post about a second pivot point; a first foot rest connected to the second end of the foot rest post; and a lock plate pivotally connected to the base, the lock plate pivotable about a third pivot point; wherein the lock plate, in a first configuration, restricts movement of the seat post relative to the base and in a second configuration permits rotational movement of the seat post about the first pivot point, relative to the base.
 2. The ergonomic chair of claim 1, wherein the seat post is telescopically adjustable.
 3. The ergonomic chair of claim 1, wherein the foot rest post is pivotally adjustable around a main pivot connection pin.
 4. The ergonomic chair of claim 1, wherein seat is slidably adjustable relative to the seat post in the anterior and posterior directions.
 5. The ergonomic chair of claim 1, wherein a seat mechanism is disposed between the seat and the seat post, the seat mechanism is configured to pivot and slide the seat anteriorly and posteriorly.
 6. The ergonomic chair of claim 5, wherein the seat mechanism includes a seat support spring to adjust a stiffness of the pivoting of the seat.
 7. The ergonomic chair of claim 5, wherein an angle of the seat is adjustable and includes an adjustable stop to limit how far forward the seat pan can tilt or pivot.
 8. The ergonomic chair of claim 1, wherein the base further includes wheels for ease of transport.
 9. The ergonomic chair of claim 1, wherein the chair is foldable to facilitate storage and transport.
 10. The ergonomic chair of claim 1, further comprising a locking shaft pivotally connected to the seat post above the first end.
 11. The ergonomic chair of claim 10, wherein the lock is configured to retain a portion of the locking shaft in the first configuration to prevent the locking shaft and the seat post from pivoting in any amount.
 12. The ergonomic chair of claim 10, wherein the locking shaft is a piston, including a rod and a barrel, the rod being telescopically received in the barrel, wherein the barrel is pivotally connected to the seat post, and wherein the lock is configured to retain a portion of the rod in the first configuration to restrict movement of the seat post to a predetermined range of motion about the first pivot point.
 13. The ergonomic chair of claim 1, wherein the seat includes a plurality of handles.
 14. The ergonomic chair of claim 1, wherein the seat post includes integral foot supports.
 15. The ergonomic chair of claim 1, further comprising at least one additional foot rest.
 16. The ergonomic chair of claim 1, further comprising a foot rest lock configured to retain the foot rest in a locked position against the base.
 17. The ergonomic chair of claim 16, wherein the foot rest lock includes a threaded rod and a contoured head, and wherein the contoured head is configured to clamp down a portion of the foot rest against the base. 